• Continuous Backwash Carbon Filter to Remove Chlorine
  • Continuous Backwash Carbon Filter to Remove Chlorine
  • Continuous Backwash Carbon Filter to Remove Chlorine
  • Continuous Backwash Carbon Filter to Remove Chlorine
  • Continuous Backwash Carbon Filter to Remove Chlorine
  • Continuous Backwash Carbon Filter to Remove Chlorine

Continuous Backwash Carbon Filter to Remove Chlorine

Style for Purifier: Vertical
Operating Principle: Activated Carbon
Certification: CE, GS
Water Purification Efficacy: Not Straight Drink
Water Temperature: Cold, Warm & Hot
Descaling Function: Without Descaling Function
Customization:

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Basic Info.

Model NO.
YL-ACF-2000
Pipe Design Rate
Automatic Backwash
Material for Filter Housing
Carbon Steel(Mild Steel), SS304, SS316, Ss2205
Filtration Material
Quartz Sand, Active Carbon, Mn Sand, etc
Working Pressure
0.6/1.0MPa
Pressure Loss
Less Than 0.02%
Working Temperature
No More Than 40 C
Water Flowing Speed
7 M/Hour, 10 --20 M/Hour
Water Output
<5 Ntu
Application Field
RO System, Water Treatment Plant
Function
Water Filter
Usage
Instrumentation Equipment
Transport Package
Plywood Case Into Container or Whole Container
Specification
to be practical
Trademark
YLD
Origin
Jiangyin, China
HS Code
8421219990
Production Capacity
100 Sets/Month

Product Description


Mechancial filter
Multi-media filter to make one or several filter media makes water of high turbidity flow through agranular or non-granular material of a certain thickness under a certain pressure, thereby effectively removing suspended impurities in the water and clarifying the water. The commonly used filter materials including quartz sand, anthracite and manganese sand, etc. they are mainly used for turbidity removal of water treatment, water softening and pretreatment of pure water in preceding stages and the outflow turbidity can be below 3 NTU. The filter is mainly used for reverse osmosis. electrodialysis, ion exchange as well as softening and demineralization system pretreatment and can also be used as coarse filtration of industry water supplying with undemanding water quality, circulating cooling water, reuse water treatment of wastewater and recycled water, etc.
 

Activated Carbon and Carbon Block Water Filters
Carbon Water Filters have been used for centuries to filter impurities from drinking water. Carbon is a very powerful absorbant; one pound (half a kilogram) of carbon contains a surface area of 125 acres (0.5 square kilometers). The material has millions tiny pores, usually invisible to eye, and can absorb thousands of water contaminants. Several forms are commonly used in water filtration: Granular Activated Carbon ( GAC ), and Carbon Block. Activated Carbon is a material that has a positive charge, which helps attracting even more impurities. Generally, Carbon Block Filters ( or "charcoal water filters" ) have higher contaminant removal capability than GAC filters, and they usually have a higher cost.
 
Activated Carbon and "Block" Filters a usually rated by size of the particles it can remove. Typical ratings are from 50 micron (least effective) to 0.5 micron (most effective). We generally use 5 micron carbon blocks in our systems, because it gives us very effective absorbtion capabilities in combination with acceptable water flow rates. However, some applications exist where granular carbon is a better fit, such as in removing chloramines (combined chlorine).
 
Although various types of carbon exist, three are generally used for drinking water filtration: bituminous, wood, and coconut shell. Coconut shell variety is most effective for most water filtration.
 
1. Chlorine Removal: Activated carbon may be used to remove chlorine with little degradation or damage to the carbon. Dechlorination occurs rapidly and flow rates are typically high. However, this process requires an extensive amount of surface area, and organics in the water will eventually fill up and block the pores of the carbon. Ultimately, the AC filter will need to be replaced as its ability to dechlorinate the water will slowly decline. Spent carbon can be re-activated; however, re-activated filters should only be used in waste-water treatment applications. One advantage to using AC is its low operating cost and virtual "fail safe" operation once installed. One disadvantage is that as the chlorine is removed from the topmost layer of the media, the AC provides a damp environment ideal for the growth and proliferation of bacteria. Bacteria can cause problems in medical applications, or when using carbon as a pretreatment to reverse osmosis. 
2. Removal of Organic Matter: As water passes through an activated carbon filter, organic particles and chemicals are trapped inside through a process known "adsorption". 
The adsorption process depends upon 5 key factors: 
   a.physical properties of the activated carbon (surface area and pore size distribution); 
   b.the chemical makeup of the carbon source (amount of hydrogen and oxygen);
c.the chemical makeup and concentration of the contaminant;
d.water pH and temperature; 
 
Active carbon filter can be controlled by manual or automatic type to start,wash,backwash,stop and other operations.
 
When pressure difference between water inlet and outlet reach 0.05--0.07 Mpa,backwashing must be started, the replacement period for activated carbon material is every half a year or one year.
 
 
Active carbon material is nutshell carbon,it is light weight,big holes,strong abrasion resistance and strong absorption,the filling height is:
   actived carbon material:    0.6-1.2mm  1100mm, ---top layer
   quartz sand material     0.6-1.2mm   100mm,---middle layer
    quartz sand material   1.2-2.0mm   100mm,----bottom layer
Technical parameters sheet for Mechanical actived carbon filter

SelfSource AutoBackwash is achieved by using the filtered raw water from two (2) or three (3) of the filtered cells and diverting over to the remaining cell. All cells are backwashed in sequence. The filtration process will continue while in the backwash cycle so the system is not "down" while backwashing. An independent backwash water supply is not required. Self-source system typically three or four filters to allow enough flow to reach 12-15 gpm/ft2 of filter bed surface back wash flow rate.  During these periods (which typically last for several minutes per filter), the amount of filtered effluent flowing downstream of the filter is reduced or stopped completely by the amount of water required for backwashing, although the process flow into the system continues to while backwashing.  It is easy to operate and maintain and a pressure sensor, timer or manual initiation can be used to initiate the backwash cycle.
 

model
Filter diameter Total height water inlet-outlet capacity Active carbon material
mm mm mm m³/hour ton
YL-ACF-500 500 2350 DN32 2 0.11
YL-ACF-600 600 2380 DN32 3 0.16
YL-ACF-700 700 2400 DN40 4 0.22
YL-ACF-800 800 2400 DN40 5 0.3
YL-ACF-900 900 2500 DN50 6 0.36
YL-ACF-1000 1000 2600 DN50 8 0.45
YL-ACF-1200 1200 2700 DN65 11 0.65
YL-ACF-1400 1400 2800 DN65 15 0.86
YL-ACF-1500 1500 2850 DN65 18 1
YL-ACF-1600 1600 2900 DN80 20 1.2
YL-ACF-1800 1800 3000 DN80 25 1.5
YL-ACF-2000 2000 3100 DN100 30 1.8
YL-ACF-2200 2200 3180 DN100 38 2.2
YL-ACF-2400 2400 3330 DN100 45 2.5
YL-ACF-2500 2500 3380 DN100 50 2.8
YL-ACF-2600 2600 3430 DN125 55 3
YL-ACF-2800 2800 3530 DN125 60 3.5
YL-ACF-3000 3000 3630 DN125 70-80 4
YL-ACF-3200 3200 3730 DN150 80-100 4.5

Continuous Backwash Carbon Filter to Remove Chlorine

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